Danfoss scroll compressors WSH - GB - SI User guide

Brand: Danfoss

Model: scroll compressors WSH - GB - SI

Type: User guide

www.danfoss.com

Application guidelines

Performer® scroll compressors

WSH090 to WSH184

50 - 60 Hz - R410A

MAKING MODERN LIVING POSSIBLE

FRCC.PC.028.A1.02

Application guidelines

Scroll compression principle ................................................ 4

Features .................................................................................. 5

Compressor model designation ........................................... 6

Nomenclature .......................................................................................................6

Technical speci cations ......................................................... 7

50-60 Hz data ........................................................................................................7

Dimensions ............................................................................. 8

WSH090-105-120-140* & 161* .........................................................................8

WSH 140 & 161 code 3 & WSH184 ..................................................................9

Connection details ........................................................................................... 10

Electrical data, connections and wiring............................. 11

Motor voltage ......................................................................................................11

Wiring connections ...........................................................................................11

IP rating ..................................................................................................................11

Terminal box temperature .............................................................................11

Three phase electrical characteristics ....................................................... 12

Danfoss MCI soft-start controller ................................................................ 13

General wiring information .......................................................................... 14

Motor protection .............................................................................................. 15

Voltage imbalance ............................................................................................ 15

Approval and certi cations ................................................ 16

Approvals and certi cates ............................................................................. 16

Pressure Equipment ......................................................................................... 16

Low voltage directive ...................................................................................... 16

Machines directive ........................................................................................... 16

Internal free volume ........................................................................................ 16

Operating conditions........................................................... 17

Refrigerant and lubricants ............................................................................. 17

Motor supply ...................................................................................................... 18

Compressor ambient temperature ............................................................ 18

Application envelope ...................................................................................... 18

Discharge temperature protection ........................................................... 19

High and low pressure protection ............................................................. 19

Cycle rate limit .................................................................................................... 20

System design recommendations ...................................... 21

Gen er al .................................................................................................................. 21

Essential piping design considerations .................................................... 21

Refrigerant charge limit.................................................................................. 22

O -cycle migration .......................................................................................... 23

Liquid  ood back .............................................................................................. 25

Speci c application recommendations ............................. 26

Low ambient application ............................................................................... 26

Low load operation .......................................................................................... 27

Brazed plate heat exchangers ...................................................................... 27

Electronic expansion valve ........................................................................... 27

Reversible heat pump systems .................................................................... 27

Water utilizing systems ................................................................................... 29

Sound and vibration management .................................... 30

Starting sound level ......................................................................................... 30

Running sound level ........................................................................................30

Stopping sound level ......................................................................................30

Sound generation in a refrigeration or air

conditioning system ........................................................................................30

Inst all ati on ............................................................................ 32

Compressor handling and storage ............................................................ 32

Compressor mounting .................................................................................... 32

Compressor holding charge ......................................................................... 33

System cleanliness ............................................................................................33

Tubing ................................................................................................................... 33

Brazing and soldering ..................................................................................... 33

System pressure test ........................................................................................34

Leak detection ................................................................................................... 35

Vacuum evacuation and moisture removal ............................................35

Filter driers ...........................................................................................................35

Refrigerant charging ........................................................................................ 36

Insulation resistance and dielectric strength .........................................36

Commissioning .................................................................................................. 36

Oil level checking and top-up ......................................................................36

Ordering information and packaging ................................ 37

Packaging............................................................................................................. 37

Ordering information ......................................................................................38

Accessories............................................................................ 39

SUCTION

COMPRESSION

DISCHARGE

FRCC.PC.028.A1.02

Application guidelines

In a Performer® WSH scroll compressor, the

compression is performed by two scroll elements

located in the upper part of the compressor.

Suction gas enters the compressor at the suction

connection. As all of the gas  ows around and

through the electrical motor, thus ensuring

complete motor cooling in all applications, oil

droplets separate and fall into the oil sump.

After exiting the electrical motor, the gas enters

the scroll elements where compression takes

place. Ultimately, the discharge gas leaves the

compressor at the discharge connection.

The  gure below illustrates the entire

compression process. The centre of the orbiting

scroll (in grey) traces a circular path around

the centre of the  xed scroll (in black). This

movement creates symmetrical compression

pockets between the two scroll elements.

Low-pressure suction gas is trapped within

each crescent-shaped pocket as it gets formed;

continuous motion of the orbiting scroll serves

to seal the pocket, which decreases in volume

as the pocket moves towards the centre of the

scroll set increasing the gas pressure. Maximum

compression is achieved once a pocket reaches

the centre where the discharge port is located;

this stage occurs after three complete orbits.

Compression is a continuous process: the

scroll movement is suction, compression and

discharge all at the same time.

Scroll compression principle

FRCC.PC.028.A1.02

Application guidelines

• Gas circulation, motor cooling and oil

behaviour are improved on light commercial

platform models by a new patented motor cap

design.

• Part protection and assembly reduces internal

leaks and increases life durability.

• Improved part isolation reduces greatly

acoustic levels.

• Gas intake design induces higher resistance to

liquid slugging.

Features

Heat shield that lowers the heat

transfer between discharge and

suction gas and the acoustic level

New PTFE spring seal for even

lower leaks

R410A optimised and dedicated

scroll pro le

Patented motor cap

Liquid slug protection per suction

 tting in upper position

Patented motor centring spacer

Improved lower bearing centring

WSH range is composed of WSH090-105-120-

140-161-184 which is based on current SH

range light commercial platform. The WSH

range bene t from a further improved design

to achieve the ~5% higher e ciency for low

pressure ratio applications such as water cooled

chiller, air-to-air rooftop etc...

Family, lubricant

& refrigerant

WSH: Scroll optimized for low pressure

ratio applications, POE lubricant, for R410A

Motor protection

L: Internal overload protector

Suction and discharge connections

A: Brazed connections

Family,

lubricant

& refrigerant

Nominal

capacity

Approvals Voltage Version Evolution

index

Evolution index

A~Z

C4WSHAAL184

Motor voltage code

3: 200-230V/3~/60 Hz

4: 380-400V/3~/50 Hz - 460V/3~/60 Hz

7: 500V/3~/50 Hz - 575V/3~/60 Hz

9: 380V/3~/60 Hz

UL index

Nominal capacity

in thousand Btu/h at 60 Hz, R410A,

ARI conditions

FRCC.PC.028.A1.02

Application guidelines

Performer® WSH scroll compressors for R410A

are available as single compressors. The example

below presents the compressor nomenclature

which equals the technical reference as shown on

the compressor nameplate.

Code numbers for ordering are listed section

"Ordering information and packaging".

Nomenclature

Compressor model designation

FRCC.PC.028.A1.02

Application guidelines

50-60 Hz data

Technical specifications

Model

Nominal

tons 60Hz

Nominal cooling

capacity

Power

input

COP E.E.R

Swept

volume

Displacement

Oil charge Net weight

TR W Btu/h kW W/W Bty/h/W cm3/rev m3/h dm3 kg

50Hz

WSH090 7.5 22400 76500 7.22 3.10 10.59 88.40 15.40 3.0 58.0

WSH105 9 26800 91500 8.60 3.12 10.63 103.50 18.00 3.3 64.0

WSH120 10 30200 103100 9.54 3.17 10.80 116.90 20.30 3.3 64.0

WSH140 12 34100 116400 10.70 3.19 10.87 133.00 23.12 3.3 67.0

WSH161 13 39000 133100 12.10 3.22 11.00 151.70 26.40 3.3 69.0

WSH184 15 44000 150200 13.65 3.22 11.00 170.30 29.60 3.6 71.5

60Hz

WSH090 7.5 27500 93900 8.62 3.19 10.88 88.40 18.60 3.0 58.0

WSH105 9 32700 111600 10.24 3.19 10.90 103.50 21.80 3.3 64.0

WSH120 10 37000 126300 11.38 3.25 11.08 116.90 24.60 3.3 64.0

WSH140 12 41600 142000 12.65 3.29 11.22 133.00 27.90 3.3 67.0

WSH161 13 47400 161800 14.40 3.29 11.22 151.70 31.90 3.3 69.0

WSH184 15 53100 181200 16.33 3.25 11.10 170.30 35.80 3.6 71.5

(1)

451

(2)

509

(1)

482

(2)

540

Ø 224

Ø 243

117

Oil sight glass

(1)

137

(2)

189

230

190.5

180

154

(1)

158

(2)

173

30°

60°

4 x hole

Ø 19.05

(1)

SH090

(2)

SH105 - 120 - 140* & 161*

* except code 3

All dimensions in mm

Ø 22

(1)

Ø 29

(2)

Ø 35

(1)

235

(2)

278

(1)

(2)

101

(1)

(2)

101

Equalisation line

15 mm

HM 8 bolt

Lock washer

Flat washer

Steel mounting

sleeve

Rubber grommet

Nut

FRCC.PC.028.A1.02

Application guidelines

WSH090-105-120-140* & 161*

(* except code 3)

Dimensions

Flexible grommet

Ø 243

Oil sight

glass

Ø 243

(1) 278

(2) 300

(1) 101

(2) 108

(1) 101

(2) 108

(1) 509

(2) 525

(1) 540

(2) 555

(1) 155

(2) 170

157

4 x holes

Ø19.05

230

190.5

173

(1) 154

(2) 159

200

30°

Ø 22

Ø 35

60°

(1) SH140 & 161 code 3

(2) SH184

All dimensions in mm

Equalisation

line

15 mm

HM 8 bolt

Lock washer

Flat washer

Steel mounting

sleeve

Rubber grommet

Nut

FRCC.PC.028.A1.02

Application guidelines

WSH 140 & 161 code 3 & WSH184

Dimensions

Flexible grommet

FRCC.PC.028.A1.02

Application guidelines

Dimensions

Suction and discharge

connections

Oil sight glass All Performer® WSH scroll compressors come

equipped with a sight glass (1"1/8 - 18 UNF)

which may be used to determine the amount and

condition of the oil contained within the sump.

The oil  ll connection and gauge port is a 1/4"

male 

are connector incorporating a schrader

valve.

WSH090-105-120-140-161-184: 1"3/4 rotolock

connector allowing use of 1”3/4 - 7/8" or 1”3/4 -

1”1/8 sleeve.

This connection must be used to mount an oil

equalisation line when two or more

compressors

are mounted in parallel.

Schrader

Oil equalisation connection

Connection details

Brazed version

Tube ODF

Brazed

WSH090

Suction

1"1/8

Discharge 7/8"

WSH105 -120-140-161-184

Suction 1"3/8

Discharge 7/8"

WSH 090 - 105 - 120 -

140 - 161 - 184

Version AL

Suction and discharge connections Brazed

Oil sight glass Threaded

Oil equalisation connection rotolock 1"3/4

Oil drain connection none

Low pressure gauge port (schrader) 1/4"  are

Oil  ll

conn ection

and gauge

port

Oil drain

conn ection

Terminal box

Ø 25.5 mm knockout

Power supply

Ø 29 mm knockout

Ø 40.5 mm hole

Ø 16.5 mm

knockout

Power supply

Motor voltage code Code 3 Code 4Code 7 Code 9

50 Hz

Nominal voltage - 380-400V - 3 ph 500V - 3 ph -

Voltage range - 340-440 V450 - 550 V-

60 Hz

Nominal voltage 200-230V - 3 ph 460V - 3 ph 575 V-3 ph 380V- 3 ph

Voltage range 180-253 V 414-506 V 51

7-632 V 342-418 V

FRCC.PC.028.A1.02

Application guidelines

The temperature inside the terminal box may not

exceed 70°C. Consequently, if the compressor is

installed in an enclosure, precautions must be

taken to avoid that the temperature around the

compressor and in the terminal box would rise

too much. The installation of ventilation on the

enclosure panels may be necessary. If not, the

electronic protection module may not operate

properly. Any compressor damage related to this

will not be covered by Danfoss warranty. In the

same manner, cables must be selected in a way

to insure that terminal box temperature does not

exceed 70°C.

Terminal box

temperature

IP rating

The compressor terminal box according to IEC529 is IP54 for all models when correctly sized IP54 rated

cable glands are used.

First numeral, level of protection against contact and foreign objects

5 - Dust protected

Second numeral, level of protection against water

4 - Protection against water splashing

Performer® WSH scroll compressors are available in  ve di erent motor voltages as listed below.

Electrical power is connected

to the compressor

terminals by Ø 4.8 mm (3/16”) screws. The

maximum tightening torque is 3 Nm. Use a 1/4’’

ring terminal on the power leads.

Motor voltage

Wiring connections

WSH090-105-120-140-161

Except WSH140-161 code 3

WSH140&161 code 3 &

WSH184

The terminal box is provided with a Ø 25.5 mm

(ISO25) and a Ø 29 mm (PG21) knockouts.

The terminal box is provided with a

Ø40.5 mm hole (ISO40) for power supply

and a

Ø16.5 mm knockout (ISO16).

Electrical data, connections and wiring

FRCC.PC.028.A1.02

Application guidelines

Electrical data, connections and wiring

Three phase electrical

characteristics

The MCC is the current at which the motor

protection trips under maximum load and

low voltage conditions. This MCC value is the

maximum at which the compressor can be

operated in transient conditions and out of

the application envelope. Abo

ve this value, the

internal motor protection or external electronic

module will cut-out the compressor to protect

the motor.

Locked Rotor Amp value is the higher average

current as measured on mechanically blocked

compressor tested under nominal voltage. T

LRA value can be used as rough estimation for

the starting current. However in most cases, the

real starting current will be lower. A soft starter

can be applied to reduce starting current.

MCC (Maximum Continuous

Current)

LRA (Locked Rotor Amp)

The max. operating current is the current when

the compressors operates at maximum load

conditions and 10% below nominal voltage

(+15°C evaporating temperature and +68°C

condensing temperature).

Max Oper. A can be used to select cables and

contactors.

In normal

operation, the compressor current

consumption is always less than the Max Oper. A.

value.

Max. operating Current

Compressor model

LRA MCC

Max Operating

current

Winding

Resistance

AAAΩ

Motor voltage code 3

200-230V / 3ph / 60 Hz

WSH090 203 43 42 0.39

WSH105 267 46 48 0.27

WSH120 267 61 54 0.27

WSH140304 64 59 0.24

WSH161 315 69 68 0.22

WSH184 351 75 78 0.20

Motor voltage code 4

380-400 V / 3ph / 50 Hz

460V / 3ph / 60hZ

WSH090 98 22 18 1.47

WSH105 142 25 21 1.05

WSH120 142 29 23 1.05

WSH140 147 30 27 0.92

WSH161 158 33 30 0.83

WSH184197 39 34 0.83

Motor voltage code

500 V / 3ph / 50 Hz

575 V / 3 ph / 60 Hz

WSH090 8418 15 2.34

WSH105 103 23 17 1.57

WSH120 103 2419 1.57

WSH140 122 26 21 1.38

WSH161 136 29 23 1.32

WSH184135 34.7 27 1.32

Motor voltage code 9

380 V / 3ph / 60 Hz

WSH090 124 26 22 1.05

WSH105 16033 25 0.72

WSH120 16035 28 0.72

WSH140 16837 32 0.62

WSH161 177 41 35 0.57

WSH184 239 50.8 40 0.57

Electrical data, connections and wiring

FRCC.PC.028.A1.02

Application guidelines

Winding resistance is the resistance between

phases at 25°C (resistance value +/- 7%).

Winding resistance is generally low and it

requires adapted tools for precise measurement.

Use a digital ohm-meter, a "4 wires" method and

measure under stabilised ambient temperature.

Winding resistance v

aries strongly with winding

temperature ; if the compressor is stabilised

at a di erent value than 25°C, the measured

resistance must be corrected with following

formula:

a + t

amb

tamb

= R

25°C

_______

a + t

25°C

: reference temperature = 25°C

amb

: temperature during measurement (°C)

25°C

: winding resistance at 25°C

amb

: winding resistance at tamb

Coe cient a = 234.5

Winding resistance

The inrush current for the Performer® WSH scroll

compressors with motor code 4 (400V /3ph /

50Hz or 460V / 3ph / 60Hz) can be reduced using

the Danfoss digitally-controlled MCI compressor

soft starter. MCI

soft starters are designed

to reduce the starting current of 3-phase AC

motors; they can reduce the inrush current by

up to 40%, thereby eliminating the detrimental

e ects of high starting torque surges and costly

demand charges from the

resultant current

spike. Upon starting, the controller gradually

increases the voltage supplied to the motor until

full-line voltage has been reached. All settings,

such as ramp-up time (less than 0.5 sec) and

initial torque, are preset and do not

require

modi cation.

Danfoss MCI

soft-start controller

When the control voltage is applied to A1 - A2,

the MCI soft starter will start the motor, according

to the settings of the ramp-up time and initial

torque adjustments. When the control voltage

is switched OFF, the motor will switch o

instantaneous

ly.

Input controlled soft start

Compressor model

Soft start reference

Ambient max. 40°C

Soft start reference

Ambient max. 55°C

WSH090 MCI15C MCI15C

WSH105 MCI25C MCI25C

WSH120 MCI25C MCI25C

WSH140MCI25C MCI25C *

WSH161 MCI25C MCI25C *

WSH184 MCI25C

MCI25C *

* by pass contactor K1 is required

By means of the built-in auxiliary contact (23-24)

the by pass function is easily achieved, see wiring

diagram beside.

No heat is generated from the MCI. As the

contactor always switches in no-load condition

it can be selected on

the basis of the thermal

current

(AC-1).

13-14 contact not applicable with MCI 25C.

MCI with by pass contactor

DGT

LPS

180 s

CONTROL CIRCUIT

F1F1

KA KA

L1 L3 L2

LLSV KS

Wiring diagram with pump-down cycle

L1 L3 L2

CONTROL CIRCUIT

F1F1

KM KA

KA KS

DGT

180 s

85 52 019 - A

KA KA

Wiring diagram without pump-down cycle

LPS

FRCC.PC.028.A1.02

Application guidelines

Electrical data, connections and wiring

Fuses ..................................................................................................F1

Compressor contactor ................................................................KM

Control relay ...................................................................................KA

Safety lock out relay ......................................................................KS

Optional short cycle timer (3 min) .......................................180 s

External overload protection ......................................................F2

Pump-down pressure switch ......................................................LP

High pressure safety switch ........................................................HP

Control device ................................................................................TH

Liquid Line Solenoid valve ...................................................... LLSV

Discharge gas thermostat .......................................................DGT

Fused disconnect ...........................................................................Q1

Motor safety thermostat ...........................................................thM

Compressor motor ..........................................................................M

Motor Protection Module ...................................................... MPM

Thermistor chain ..............................................................................S

Safety pressure switch ................................................................LPS

Suggested wiring diagrams logic

Compressor model WSH 090 - 105 - 120 - 140 - 161 - 184

General wiring

information

The wiring diagrams below are examples for a

safe and reliable compressor wiring. In case an

alternative wiring logic is chosen, it is imperative

to respect the following rules:

When a safety switch trips, the compressor must

stop

immediately and must not re-start until

the tripping condition is back to normal and

the safety switch is closed again. This applies to

the LP safety switch, the HP safety switch, the

discharge gas thermostat and the motor safety

thermostat.

In speci c sit

uations, such as winter start

operation, an eventual LP control for pump-

down cycles may be temporarily bypassed to

allow the system to build pressure. But it remains

mandatory for compressor protection to apply an

LP safety switch. The

LP safety switch must never

be bypassed.

Pressure settings for the LP and HP safety switch

and pump-down listed in table from section "Low

pressure".

When ever possible (ie. PLC control), it is

recommended to limit the possibilities of

compressor auto restart to less than 3 to 5 times

during a period of 12 hours when caused by

motor protection or LP safety switch tripping.

This control must be managed as a manual reset

device.

Legend

Compressor model

Overheating

protection

Over current

protection

Locked rotor

protection

Phase reversal protection

WSH 090 - 105 - 120 - 140- 161 - 184Internal motor protection Phase sequence detector recommended



FRCC.PC.028.A1.02

Application guidelines

Electrical data, connections and wiring

Motor protection

Compressor models WSH090-105-120-140-

161 -184 have been provided with an internal

overload motor protection to prevent against

excessive current and temperature caused by

overloading, low refrigerant  ow or phase loss.

The cuto

ut current is the MCC value listed in

section "Three phase electrical characteristics".

The protector is located in the star point of the

motor and, should it be activated, will cut out all

three phases. It will be reset automatically.

While not compulsory, an additional external

overload is still advisable for either alarm or

manual reset.

Then it must be set below MCC value (at max

operating current:

• when the motor temperature is too high, then

the internal protector will trip

• when the current is too high the external

overload protection will trip before the internal

protection therefore o ering possibility of

manual reset.

Use a phase meter to establish the phase

orders and connect line phases L1, L2

and L3

to terminals T1, T2 and T3, respectively. The

compressor will only operate properly in a single

direction, and the motor is wound so that if the

connections are correct, the rotation will also be

correct.

Phase sequence and

reverse rotation protection

Compressor models WSH090-105-120-14

0-161-

184 have no internal reverse rotation protection.

If reverse rotation occurs it will be obvious as

soon as power is turned on. The compressor will

not build-up any pressure, the sound level will be

abnormally high and

power consumption will be

minimal. In such case, shut down the compressor

immediately and connect the phases to their

proper terminals. Prolonged reverse rotation will

damage the compressor.

Phase sequence detector is strongly

recommended.

V avg = Mean voltage of phases 1, 2, 3.

V1-2 = Voltage between phases 1 & 2.

V1-3 = Voltage between phases 1 & 3.

V2-3 = Voltage between phases 2 & 3.

2 x Vavg

% voltage

imbalance

= x 100

The operating voltage limits are shown in the

table section "Motor voltage". The voltage applied

to the motor terminals must lie within these

table limits during both start-up and normal

operations. The maximum

allowable voltage

imbalance is 2%. Voltage imbalance causes high

amperage over one or several phases, which in

turn leads to overheating and possible motor

damage. Voltage imbalance is given by the

formula:

Voltage imbalance

FRCC.PC.028.A1.02

Application guidelines

Approval and certifications

WSH scroll compressors comply with the

following approvals and certi cates.

Certi cates are listed on the product datasheets:

http://www.danfoss.com/odsg

Approvals and

certi cates

Pressure Equipment

Machines directive

2006/42/EC

Low voltage directive

Internal free volume

Directive 97/23/EC

2006/95/EC

CE 0062 or CE 0038 or CE0871

(European Directive)

All WSH models

(Underwriters Laboratories)

All 60 Hz WSH models

Other approvals / certi cates Contact Danfoss

Products WSH090 to 184

Manufacturer's declaration of incorporation

ref. Machines Directive 2006/42/EC

Contact Danfoss

Products WSH090 to 184

Declaration of conformity

ref. Low voltage Directive 2006/95/EC

Contact Danfoss

Products Internal free volume without oil (litre)

WSH090 12.4

WSH105-120-140-161 14.3

WSH18414.6

Products WSH090-105-120-140-161-184

Refrigerating  uids Group 2

Category PED II

Evaluation module D1

Service temperature - Ts -35°C < Ts < 55°C

Service pressure - Ps 33.3 bar(g)

Declaration of conformity contact Danfoss

FRCC.PC.028.A1.02

Application guidelines

Operating conditions

The scroll compressor application range is

in uenced by several parameters which need to

be monitored for a safe and reliable operation.

These parameters and the main

recommendations for good practice and safety

devices are explained hereunder.

• Refrigerant and lubricants

• Motor supply

• C

ompressor ambient temperature

• Application envelope (evaporating

temperature, condensing temperature, return

gas temperature)

General information

Refrigerant and

lubricants

W hen choosing a refrigerant, di erent aspects

must be taken into consideration:

• Legislation (now and in the future)

• Safety

• Application envelope in relation to expected

running conditions

• Compressor capacity and e ciency

• Compressor manufacturer recommendations &

Guidelines

Additional points could in uence the  nal choice:

• Environmental considerations

• Standardisation of refrigerants and lubricants

• Refrigerant cost

• Refrigerant availability

WSH compressors are to be used with R410A

refrigerant, with polyolester oil.

• R410A’

s superior thermodynamical properties

compared to R22 and R407C refrigerants allow

for today’s massive – and necessary – switch to

high e ciency systems.

• Zero Ozone Depletion Potential (ODP): R410A

doesn’t harm the ozone layer.

• Global

warming potential (GWP): R410A shows

a relatively high warming potential. However,

the GWP index denotes direct warming e ect,

which is relevant only in case of release to the

atmosphere. A more accurate index is T.E.W.I.,

for Total Eq

uivalent Warming Impact, which

takes into account indirect contributions due to

running energy costs.

• Because of the higher system e ciency it allows

to achieve, R410A is in this regard the best

refrigerant.

• As a near-azeotropic

mixture, refrigerant R410A

behaves like an homogeneous substance,

whereas other zeotropic mixtures such as

R407C and other blends su er a temperature

glide during phase change that lessens thermal

e ciency and makes them di c

ult to transfer

from a container to another.

• Reduced refrigerant mass  ow, permitted by a

higher heat capacity, induce a lower sound level

of the installation as well as more compact and

lighter systems.

Danfoss Commercial Compressors, along with

the whole refrigeration and air conditioning

industry, shares today’s concern about the

environmental issues that are ozone depletion,

global warming and overall energy consumption.

Usual HCFCs refrigerant  uids such as R22

are known to

be implicated in these harmful

phenomena, especially ozone depletion due to

their chlorinated content. These substances are

scheduled to be phased-out from production

and use in coming years, in accordance with the

international Montreal Protocol (1984).

As a result

, new chlorine -free molecules have

been recently developed and are now ready to

replace former  uids. Among those refrigerants,

the HFC blend R410A is admitted by a great

majority of manufacturers to be the most

promising in terms

of environmental impact,

stability and e ciency, and is already seen as the

R22 replacement.

R410A

Refrigerant R22 R407C R410A

Chemical

properties

Chlorine content yes no no

Zeotropic pure refrigerant zeotropic mixture near azeotropic mixture

Composition R22 R32/R125/R134a R32/R125

Environmental

impact

ODP 0.05 0 0

GWP 1500 15261725

Thermodynamic

properties

Vapour pressure (bar) at 25°C10.411.9 16.5

ooling capacity of liquid (kJ/kg.K) at 25°C1.241.541.84

Cooling capacity of vapor (kJ/kg.K) at 1 atm, 25 °C 0.657 0.829 0.833

Temperature glide (°C)07.4<0.2

-30 -25 -20

SH=15K

SH=10KSH=5K

-15 -10 -50510 1520

Condensing temperature (°C)

Evaporating temperature (°C)

FRCC.PC.028.A1.02

Application guidelines

Operating conditions

Motor supply

WSH scroll compressors can be operated at

nominal voltages as indicated section "Motor

voltage". Under-voltage and over-voltage

operation is allowed within the indicated voltage

ranges. In case of risk of under-voltage operation,

special attention must be paid

to current draw.

The operating envelope for WSH scroll

compressors is given in the  gure below, where

the condensing and evaporating temperatures

represent the range for steady-state operation.

Under transient conditions, such as start-up and

defrost, the

compressor may operat e outside this

envelope for short periods.

The operating limits serve to de ne the

envelope within which reliable operations of the

compressor are guaranteed:

• Maximum discharge gas temperature: +135°C,

• A suction superheat be

low 5 K is not

recommended due to the risk of liquid  ood

back,

• Maximum superheat of 30 K,

• Minimum and maximum evaporating and

condensing temperatures as per the operating

envelopes.

WSH compressors can be applied from -35°C to

55°

C ambient temperature. The compressors

are designed as 100 % suction gas cooled

without need for additional fan cooling.

Ambient temperature has very little e ect on the

compressor performance.

Application envelope

Compressor ambient

temperature

POE oil Polyolester oil (POE) is miscible with HFC's

(while mineral oil is not), but has to be evaluated

regarding lubrication ability in compressors.

POE oil has better thermal stability than

refrigerant mineral oil.

POE is more hygroscopic

and also holds moisture

more tight than mineral oil.

It also chemically reacts with water leading to

acid and alcohol formation.

In case of enclosed  tting and high ambient

temperature it’s recommend to check the

temperature of power wires and

conformity to

their insulation speci cation.

In case of safe tripping by the internal

compressor overload protection the compressor

must cool down to about 60°C before the

overload will reset. A high ambient temperature

can strongly delay this

cool-down process.

Although the compressor itself can withstand

low ambient temperature, the system may

require speci c design features to ensure safe

and reliable operation. See section ‘Speci c

application recommendations’.

High ambient temperature

Low ambient temperature

-30 -25 -20 -15

-10

-50 510 1520

Cond. temp. (°C)

Evap. temp. (°C)

LP1

HP2

HP1

R410A

DGT - limit

Example 1

Example 2

LP2

Discharge line

Insulation

Bracket

Thermostat

FRCC.PC.028.A1.02

Application guidelines

Operating conditions

DGT protection is required if the high and low

pressure switch settings do not protect the

compressor against operations beyond its

speci c application envelope. Please refer to

the examples below , which illustrate where DGT

protection is required (Ex.1) and

where it is not

(Ex.2).

A discharge gas temperature protection device

must be installed on all heat pumps. In reversible

air-to-air and air-to-water heat pumps the

discharge temperature must be monitored

during development

test by the equipment

manufacturer.

The DGT should be set to open at a discharge gas

temperature of 135°C.

The compressor must not be allowed to cycle

on the discharge gas thermostat. Continuous

operations beyond the compressor’s operating

range will cause serious damage to the

compressor!

A high-pressure (HP) safety switch is required to

shu

t down the compressor should the discharge

pressure exceed the values shown in the table

section "System pressure test". The high-pressure

switch can be set to lower values depending on

the application and ambient conditions. The HP

switch must either

be placed in a lockout circuit

or consist of a manual reset device to prevent

cycling around the high-pressure limit. If a

discharge valve is used, the HP switch must be

connected to the service valve gau

ge port, which

must not be isolated.

High and low

pressure protection

High pressure

The discharge gas temperature must not exceed

135°C.

The discharge gas thermostat accessory kit (code

7750009) includes all components required for

installation as shown below. The thermostat must

be attached to the discharge line within 150 mm

from the compressor

discharge port and must be

thermally insulated and tightly  xed on the pipe.

Discharge temperature

protection

Examp le 1 (R410A, SH = 11 K)

LP switch setting:

LP1 = 3.3 bar (g) (-15.5°C)

HP switch setting:

HP1 = 38 bar (g) (62°C)

Risk of operation beyond the applica-

tion envelope.

DGT protection required.

Examp le 2 (R410A, SH = 11 K)

LP switch setting:

LP2 = 4.6 bar (g) (-10.5°C

)

HP switch setting:

HP2 = 31 bar (g) (52°C)

No risk of operation beyond the

application envelop e.

No DGT protection required .

FRCC.PC.028.A1.02

Application guidelines

Cycle rate limit

A low-pressure (LP) safety switch must be used.

Deep vacuum operations of a scroll compressor

can cause internal electrical arcing and scroll

instability. Performer® WSH Scroll compressors

exhibit high volumetric e ciency and may draw

very low vacuu

m levels, which could induce such

a problem. The minimum low-pressure safety

switch (loss-of-charge safety switch) setting is

given in the following table. For systems without

pump-down, the LP safety switch

must either be

a manual lockout device or an automatic switch

wired into an electrical lockout circuit. The LP

switch tolerance must not allow for vacuum

operations of the compressor. LP switch settings

for pump-down cycles

with automatic reset are

also listed in the table below.

Low pressure

Operating conditions

Danfoss recommends a restart delay timer to

limit compressor cycling. The timer prevents

reverse compressor rotation, which may occur

during brief power interruptions.

The system must be designed in a wa y that

guarantees a minimum compressor r

unning

time of 2 minutes so as to provide for su cient

motor cooling after start-up along with proper oil

return. Note that the oil return may vary since it

depends upon system design.

There must be no more than

12 starts per hour, a

number higher than 12 reduces the service life of

the motor-compressor unit. A three-minute (180-

sec) time out is recommended.

Note that these two di erent low pressure

switches also require di erent

settings. The

low pressure pump down switch setting must

always be within the operating envelope, for

example 2.3 bar for R410A. The compressor can

be operated full time under such condition. The

minimum low pressure safety switch setting

may be outside the normal operating envelope

and should only be reached in exceptional

(emergency) situations, for example 1.5 bar for

R410A.

Please contact Danfoss Technical Support for any deviation from this guidelines.

T T

A2 A3A1

180 s

Pressure settings R410A

Working pressure range high side bar (g) 13.5 - 44.5

Working pressure range low side bar (g) 2.3 - 11.6

Maximum high pressure safety switch setting bar (g) 45

Minimum low pressure safety switch setting * bar (g) 1.5

Minimum low

pressure pump-down switch setting ** bar (g) 2.3

* LP safety switch shall never be bypassed and shall have no time delay.

** Recommended pump -down switch settings: 1.5 bar below nominal evap. pressure with minimum of 2.3 bar(g)

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Danfoss scroll compressors WSH - GB - SI User guide

Danfoss scroll compressors WSH - GB - SI User guide

Danfoss scroll compressors WSH - GB - SI User guide

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